Abstract: A cochlear implant including a cochlear lead, an antenna, a stimulation processor, and an implant magnet apparatus, associated with the antenna, including a case defining a central axis, a first disk-shaped magnet member, located within the case and rotatable relative to the case about the central axis of the case, including a magnetic north portion (“N-portion”), a magnetic south portion (“S-portion”) and an amagnetic portion (“AM-portion”), and a second disk-shaped magnet member, located within the case and rotatable relative to the case about the central axis of the case, including a N-portion, a S-portion and an AM-portion.

Abstract: Apparatus and methods for installing a magnet into a cochlear implant.

Abstract: A cochlear implant including a cochlear lead, an antenna, a stimulation processor, and an implant magnet apparatus, associated with the antenna, including a case defining a central axis, a first disk-shaped magnet member, located within the case and rotatable relative to the case about the central axis of the case, including a magnetic north portion (“N-portion”), a magnetic south portion (“S-portion”) and an amagnetic portion (“AM-portion”), and a second disk-shaped magnet member, located within the case and rotatable relative to the case about the central axis of the case, including a N-portion, a S-portion and an AM-portion.

Abstract: Apparatus and methods for installing a magnet into a cochlear implant.

Abstract: Apparatus and methods for installing a magnet into a cochlear implant.

Abstract: An exemplary system includes 1) a programming device configured to be located external to a cochlear implant patient and communicatively coupled to a cochlear implant system associated with the patient, 2) a programming interface device communicatively coupled to the programming device and configured to be located external to the patient, and 3) a receiver communicatively coupled directly to the programming interface device. The programming device directs at least one of the cochlear implant system and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: An exemplary system includes 1) a programming device configured to be located external to a cochlear implant patient and communicatively coupled to a cochlear implant system associated with the patient, 2) a programming interface device communicatively coupled to the programming device and configured to be located external to the patient, and 3) a receiver communicatively coupled directly to the programming interface device. The programming device directs at least one of the cochlear implant system and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: An exemplary system includes 1) a programming device configured to be located external to a cochlear implant patient and communicatively coupled to a cochlear implant system associated with the patient, 2) a programming interface device communicatively coupled to the programming device and configured to be located external to the patient, and 3) a receiver communicatively coupled directly to the programming interface device. The programming device directs at least one of the cochlear implant system and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: An exemplary system includes 1) an electro-acoustic stimulation (“EAS”) sound processor configured to be located external to a patient, 2) a cochlear implant communicatively coupled to the EAS sound processor and configured to be implanted within the patient, 3) an electrode array communicatively coupled to the cochlear implant and configured to be located within a cochlea of the patient, and 4) a receiver communicatively coupled to the EAS sound processor and configured to be in communication with an ear of the patient. The EAS sound processor directs at least one of the cochlear implant and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: Apparatus and methods for installing a magnet into a cochlear implant.

Abstract: An exemplary system includes a detection facility configured to 1) receive an acoustic signal transmitted by a middle ear analyzer and 2) detect a sound level of the acoustic signal, and a processing facility configured to 1) use the sound level of the acoustic signal to control a current level of electrical stimulation applied by a cochlear implant system by way of a first set of one or more electrodes implanted within a patient, 2) synchronize the middle ear analyzer with the cochlear implant system in accordance with a first mapping data set during a first stapedius reflex measurement session, 3) identify a current level of the electrical stimulation at which the stapedius reflex occurs, and 4) automatically generate a second mapping data set based on the identified current level for use during a second stapedius reflex measurement session subsequent to the first stapedius reflex measurement session.

Abstract: An exemplary system includes 1) an electro-acoustic stimulation (“EAS”) sound processor configured to be located external to a patient, 2) a cochlear implant communicatively coupled to the EAS sound processor and configured to be implanted within the patient, 3) an electrode array communicatively coupled to the cochlear implant and configured to be located within a cochlea of the patient, and 4) a receiver communicatively coupled to the EAS sound processor and configured to be in communication with an ear of the patient. The EAS sound processor directs at least one of the cochlear implant and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: An exemplary system includes 1) a programming device configured to be located external to a cochlear implant patient and communicatively coupled to a cochlear implant system associated with the patient, 2) a programming interface device communicatively coupled to the programming device and configured to be located external to the patient, and 3) a receiver communicatively coupled directly to the programming interface device. The programming device directs at least one of the cochlear implant system and the receiver to apply stimulation to the patient, records an evoked response that occurs in response to the stimulation, and performs a predetermined action in accordance with the evoked response. Corresponding systems and methods are also disclosed.

Abstract: Monitoring/measurement circuitry within an implantable stimulator, e.g., an implantable cochlear stimulator (ICS), includes a first analog multiplexer (MUX) connected to a gain controlled, low noise, differential amplifier. The output of the differential amplifier is coupled to a second analog MUX along with other analog signals, e.g., operating or bias voltages used within the implantable stimulator. The signal appearing at the output of the second analog MUX is preliminary processed as required, e.g., to adjust the amplitude (attenuate) and/or filter out high frequency components. Once processed, the signal is then digitized in an analog-to-digital (A/D) converter. The digitized signal is then stored in memory as measured data, and eventually transmitted to a remote (non-implanted) processor for further processing, analysis, examination and/or feedback.